1H–1H internuclear distance measurements in carbohydrates: proton transient nuclear Overhauser enhancement and spin-lattice relaxation in (13C)- and (2H)-substituted compounds

Abstract

Proton transient nuclear Overhauser enhancement (TnOe) and spin-lattice relaxation times (T₁) have been used to evaluate the conformations of several monosaccharides and disaccharides containing (¹³C) and (²H) substitution. Absolute ¹H–¹H internuclear distances were determined by TnOe and DESERT (deuterium substitution effects on relaxation times) experiments on conformationally rigid methyl β-D-galactopyranoside and α- and β-D-xyloses, respectively. The DESERT method was extended to examine O-glycoside conformation in two blood-group disaccharides that were prepared enzymically with (¹³C) and (or) (²H) substitution. Preferred disaccharide conformations deduced from these distance measurements are compared to those determined from ¹³C–¹³C and ¹³C–¹H spin coupling constants, theoretical calculations, and crystallographic studies. Keywords: TnOe, DESERT, carbohydrate conformation.